Shoelace and Method for Fastening a Shoe Using Same

ABSTRACT

A shoelace device is disclosed having an elongated flexible section engaged on one end to an anchor. The elongated flexible section is configured for traversing apertures formed on opposite facings of a shoe. The anchor is sized with at least one dimension larger than the apertures to form a stop for preventing passage of the first end through an aperture. The anchor has a first fastening surface configured for removably joining in a first engagement to second fastening surface located on the flexible section when the second fastening surface comes into contact is the fastening surface. A second engagement of strap portions can be achieved using combination hook and loop fabric as the second fastening surface.

This application is a Continuation-in-Part Application to U.S. patentapplication Ser. No. 13/854,088 filed on Mar. 30, 2013, which isincorporated in its entirety by this reference thereto. The presentinvention, in some embodiments thereof, relates to the field ofclothing. More particularly, the disclosed device and method hereinrelate to shoes and shoe tying accessories.

BACKGROUND OF THE INVENTION

1. Field of the Invention

Commonly shoes are tied via laces threaded through a plurality ofsequential apertures in the shoe which can be formed by eyelets.Conventionally, a single flexible lace is threaded through aperturescentered within the eyelets (or hole if lacking eyelets) of the shoe, ina manner positioning both ends of the lace extending through theapertures in a top pair of eyelets (i.e., those in the eyelets that arefarthest from the shoe's toebox) toward the outside of the shoe. Thesetwo free ends of the shoelace are then tied together to secure the shoeto the foot of the user. Both ends of the lace are generally fitted withrigid or semi-rigid aglets, which surround the respective laces at bothdistal ends. These aglets are engaged to provide some rigidity to theends of the laces for easing the task of communicating the laces throughthe apertures in the plurality of sequentially positioned eyelets in theshoe.

When a new shoe is purchased, the user may sometimes have to initiallyposition the laces through the shoes, by threading each of the lacesthrough each of the apertures formed in the shoe itself, or in theplurality of eyelets of present. Even after the laces are joined to theshoes, the user generally has to tie the laces every time he or she putson the shoes. This requirement for threading and tying the distal endsof each lace may be difficult tasks for children, people withdisabilities, and people who suffer from arthritis and the like.

2. Prior Art

Many techniques and devices have been devised to simplify the act ofsecuring shoes to a user's foot in order to eliminate or otherwise easethe requirement for lace tying. U.S. Pat. No. 4,270,285 discloses a shoehaving an adjustable and flexible closure assembly utilizing separablefastening members having contacting, flexible gripping elements, such ashook and loop type mating fasteners in combination with an elasticinstep-gore or elastic side-gores. The closure assembly includes ananchor strap having an opening to engage a fastener strap permitting thewearer to easily pull the uppers of the shoe inwardly and simultaneouslyto the precise desired tautness and fasten the shoe, using only onehand.

U.S. Pat. No. 4,210,983 discloses a shoe fastener for extending betweencooperating pairs of eyelets of the shoe comprising: a flat resilientelongated member, and a pair of gripping members one coveringsubstantially a different end of only one common surface of saidresilient member and being bonded thereto along only terminal end partsof their lengths. The second parts of the lengths of said grippingmembers comprise an unbonded tab portions juxtapositioned to each otheralong the length of the resilient member. The ends of said resilientmember include the gripping members when moved through an eyelet of ashoe causing the resilient member to separate from the associatedgripping member along the unbonded portion thereof to form clamps forengaging the periphery of the associated eyelets of the shoe between theresilient member and the said second parts of the gripping members.

U.S. Pat. No. 4,553,293 relates to an improvement for tying deviceswhich can be secured to laces particularly on shoes for holding theshoelace knot in place. The device disclosed in U.S. Pat. No. 4,553,293employs a mechanism for securing a portion of the device to the shoe andenabling the device to be reused for securing a knot in place each andevery time the laces are tied. In the embodiment disclosed U.S. Pat. No.4,553,293, the invention also incorporates elastic or semi-rigid meansfor engaging the shoelace knot from opposed sides to impede the knotfrom becoming untied while simultaneously exposing the knot for view andmaintaining the normal appearance of the bow.

BRIEF SUMMARY OF PREFERRED EMBODIMENTS OF THE INVENTION

The device of U.S. Pat. No. 4,270,285 is a fixed part of the shoe andquite expensive. U.S. Pat. No. 4,210,983 does not provide an easyfastening means for the shoe fastener. The device of U.S. Pat. No.4,553,293 must be laced into the shoe laces and does not providevariable adjustment. There is, as such, an unmet need for a new deviceconfigured for engagement to and fastening of a shoe having a pluralityof apertures positioned therein.

The present invention relates to a shoelace, or as can be discerned ashoelace replacement, which has a first and a second end, where thefirst end is joined to an anchor which is sized to prevent passagethrough a conventional aperture employed in shoes which can range from 1mm to 8 mm. The anchor can be flexible so long as it prevents passagethrough the aperture of the shoe which abuts it, and optionally it canbe rigid or semi-rigid anchor.

The anchor, sized larger than the aperture adjacent it through which thelace passes, will as such not fit through the aperture and therebyprovides a means to anchor one end of the lace from pulling through theaperture in the shoe or an eyelet. The anchor includes a one half of amating fastener adapted to removably engage with the body of a shoelacewhich includes or is formed off the mating half of the mating fastener.

In use, the shoelace of the present invention is to be threaded throughat least a pair of apertures positioned in the shoe body itself or apair of eyelets engaged with the shoe (which may or may not be at thesame level) and which are located on opposite sides of the tongue of theshoe such that the fastener surface of the anchor which is sized toprevent passage through the apertures, partially or wholly covers one ofthe apertures in the show or eyelet and faces away from the shoe. On thesame lace, the second end is threaded through a second aperture in theshoe or an eyelet on an opposing side of the tongue of the shoe. In thismanner, the second end of the shoelace can be pulled toward the firstend, to bring the two sides of the shoe closer to each other andtightening the engagement of the shoe upon the foot of the user.

One or a plurality of shoelace devices disclosed in the presentinvention may be operatively engaged in a single shoe. In such anengagement each shoelace is threaded through a corresponding pair ofapertures in the shoe or eyelets. In this manner, the need for threadinga single shoelace through a sequentially located plurality of eyeletpairs is obviated, and the process of tying the shoe is simplified.

Therefore, an aspect of some embodiments of the present inventionrelates to a shoelace comprising an elongated flexible section andengaged with an anchor at one end. The elongated flexible section hasfirst end and a second end, the flexible section being configured fortraversing one or a plurality of apertures in a shoe or eyelets engagedwith a shoe. The anchor is joined to the first end of the flexiblesection of the lace, has at least one dimension sized larger than thesize of the aperture in the shoe or eyelet through which the engagedflexible portion communicates, and is thereby configured for preventingpassage of the first end of the lace through the aperture in the shoe orthe eyelet. The anchor has a fastening surface configured for removablyjoining to a portion of the flexible section when the portion of theflexible section comes into contact is the fastening surface to therebyform a mating fastener from the two halves.

Currently, a preferred size of one dimension of all modes of the anchordisclosed herein, to prevent passage through an aperture of a shoe oreyelet adjacently engaged by the lace, will be between 1.5 mm and 8 mmdepending on the size of the aperture to be blocked. Such apertures varybetween 1 mm and 7.5 mm conventionally, depending on whether they areformed into the shoe or an eyelet engaged with the shoe, but could beoutside this range. As such at least one dimension of the anchor will besized with a distance of length or width between 1.5 and 8 mm with acurrent favored size being at least 3.6 mm.

In one variant mode of the lace device herein, the anchor may be formedrigid or semi-rigid.

In another variant, the anchor is configured for at least partiallycovering the eyelet.

In yet another variant, the fastening surface comprises a plurality ofhooks configured for removably attaching to the flexible section.

In a further variant, the shoelace comprises an aglet joined to thesecond end of the flexible section.

The aglet may surround the second end of the flexible section.

Optionally, the aglet is rigid or semi-rigid.

Another aspect of some embodiments of the present invention relates to ashoe comprising a first facing, a second facing, and a shoelace. Thefirst facing has at least a first aperture therein or through a firsteyelet mounted therein. The second facing has at least one aperturetherein through the shoe itself or through a second eyelet engaged withthe shoe. The shoelace includes an elongated flexible section and ananchor engaged thereto at a first end. The elongated flexible sectionhas first end and a second end, and is configured for traversing thefirst and second apertures in the shoe or the eyelets. The anchor isjoined to the first end, has at least one dimension of a distance largerthan at least the diameter of the first aperture, and is configured forpreventing passage of the first end through the first aperture locatedin either the shoe or an eyelet engaged in the shoe. The anchor has afastening surface configured for removably joining to a portion of theflexible section when the portion of the flexible section comes intocontact is the fastening surface.

A further aspect of some embodiments of the present invention relates toa method for fastening a shoe employing a mode of the disclosed shoelacedevice herein, the method comprising: (i) providing a shoelace whichcomprises: an elongated flexible section having a first end and a secondend, the flexible section being configured for traversing at least twoapertures formed into the shoe or eyelets of the shoe; and having ananchor joined to the first end, the anchor having at least one dimensionof a size larger than at least a diameter of a first one of theapertures and configured for preventing passage of the first end throughthe first aperture of the shoe or of an eyelet engaged therein, theanchor having a fastening surface configured for removably joining to aportion of the flexible section when the portion of the flexible sectioncomes into contact is the fastening surface; (ii) threading the flexiblesection through the first aperture in the shoe or eyelet and a secondaperture formed in the shoe or a second eyelet, the first aperture beinglocated on a first facing of the shoe and the second aperture beinglocated on a second facing of the shoe; (iii) pulling the flexiblesection to bring the anchor in contact with the first facing of theshoe; (iv) positioning the flexible section over the first aperture,toward the anchor; and (v) joining a portion of the flexible sectionwith the anchor and with the hook and loop combination fabric positionedon facing first sides of the flexible section, joining the facing firstsides in removable engagement.

In another particularly preferred mode of the device herein, acombination hook and loop fabric, such as OMNI-TAPE brand fasteners byVELCRO company is employed. This combination hook and loop fabric ispositioned on at least one side surface of the flexible section betweenthe first and second ends thereof. Combination hook and loop fabric hasboth the hook portion of the releasable fastener and the loop portion ofthe releasable fastener in a single layer of combination fasteningfabric. Thus, any section of combination hook and loop fabric, willremovably engage any other section of combination hook and loop fabricin which it comes in contact.

By placing combination hook and loop fabric, to substantially cover oneside of the flexible section, when the flexible section is threadedthrough opposing apertures on opposite sides of the tongue of a shoe,the facing first side portions in-between the opposing apertures, willboth have combination hook and loop fabric thereon. This placement on atleast a first side of the flexible section, allows for the formation ofa second removable engagement of the flexible section engaged in theshoe, because portions of the flexible section in the gap between thetwo sides hosting the apertures, may also be engaged to each other. Thissecond engagement combined with the first engagement of hook and loopcombination fabric to the hook or loop fabric positioned on the firstside surface of the anchor has shown in experimentation, to yield asignificant enhancement to the secure connection of the flexible portionin between opposing apertures by forming two engagements instead of justone.

Other features and aspects of the invention will become apparent fromthe following detailed description, taken in conjunction with theaccompanying drawings, which illustrate, by way of example, the featuresin accordance with embodiments of the invention. The summary is notintended to limit the scope of the invention, which is defined solely bythe claims attached hereto.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention, in accordance with one or more variousembodiments, is described in detail with reference to the followingfigures. The drawings are provided for purposes of illustration only andmerely depict typical or example embodiments of the invention. Thesedrawings are provided to facilitate the reader's understanding of theinvention and shall not be considered limiting of the breadth, scope, orapplicability of the invention. It should be noted that for clarity andease of illustration these drawings are not necessarily made to scale.

Some of the figures included herein illustrate various embodiments ofthe invention from different viewing angles. Although the accompanyingdescriptive text may refer to such views as “top,” “bottom” or “side”views, such references are merely descriptive and do not imply orrequire that the invention be implemented or used in a particularspatial orientation unless explicitly stated otherwise.

FIGS. 1 and 2 are drawings showing different views of a shoelace of thepresent invention;

FIGS. 3 a and 3 b are schematic drawings illustrating a first manner inwhich the shoelace of the present invention may be inserted through apair of opposing apertures formed in eyelets, and engaged across a gapin an as-used position, for securing a shoe to the user's foot;

FIGS. 4 a and 4 b are schematic drawings illustrating a second manner inwhich the shoelace of the present invention may be inserted into a pairof opposing apertures formed in eyelets, and used for securing a shoe tothe user's foot;

FIG. 5 is a perspective drawings illustrating an example of a dress shoefitted with a plurality of the shoelaces of the present invention inas-used positions secured across the gap occupied by the tongue of theshoe;

FIG. 6 is a flowchart illustrating a method for securing a shoe to afoot, using the shoelace of the present invention.

FIG. 7 depicts an overhead view showing a first side surface of theanchor having hook fabric, loop fabric, or combination hook and loopfabric thereon, and a first side of a flexible portion of the shoelacedevice herein, having combination hook and loop fabric positionedthereon between the first and second ends of the flexible portion.

FIG. 8 shows a side view of the anchor of the device of FIG. 7, showingthe combination hook and loop fabric positioned on the first side of theflexible portion and an enlarged section thereof, and showing matinghook or hook and loop combination fabric preferably covering the entirefirst side surface of the anchor, which is engaged to the first end ofthe flexible portion at a mid point on the second side surface of theanchor.

FIG. 9 depicts an overhead view of the second side surface of the anchorand the second surface of the flexible portion, and the engagement ofthe flexible portion at a central position on the second side surface ofthe anchor, to thereby provide means to center the long dimension of theanchor over an aperture in a shoe when the flexible portion iscommunicated therethrough.

FIG. 10 shows the device of FIGS. 7-9 engaged on a shoe, where thesecond end of the flexible portion has been threaded through opposingapertures positioned across a gap, and where one section of the firstside of the flexible portion is engaged with a second section of thefirst side of the flexible portion, and the second end of the flexibleportion is engaged to the first side surface of the anchor, therebyyielding two engagements of the flexible portion for a more secure mountto the shoe.

The figures are not intended to be exhaustive or to limit the inventionto the precise form disclosed. It should be understood that theinvention can be practiced with modification and alteration, and thatthe invention be limited only by the claims and the equivalents thereof.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS OF THE INVENTION

The present invention is described herein in terms of exampleenvironments or an as-used engagement of the shoelace device hereinsecured through opposing apertures formed in a shoe or eyelets engagedin the shoe. Description in terms of these environments is provided toallow the various features and embodiments of the invention to beportrayed in the context of an exemplary application. After reading thisdescription, it will become apparent to one of ordinary skill in the arthow the invention can be implemented in different and alternativeenvironments.

Unless defined otherwise, all technical and scientific terms used hereinhave the same meaning as is commonly understood by one of ordinary skillin the art to which this invention belongs. All patents, applications,published applications and other publications referred to herein areincorporated by reference in their entirety. If a definition set forthin this section is contrary to or otherwise inconsistent with adefinition set forth in applications, published applications and otherpublications that are herein incorporated by reference, the definitionset forth in this document prevails over the definition that isincorporated herein by reference.

Referring now to the drawings of FIGS. 1-10, there is seen in FIGS. 1and 2, schematic drawings showing different views of the device orshoelace 100 of the present invention. FIG. 1 shows a side view of onemode of the shoelace 100, while FIG. 2 shows a top view of the shoelace100 of FIG. 1.

In all modes of the shoelace 100 device herein, the shoelace 100 has anelongated flexible section 101 having a first end 102 and a second end104. The first end 102 of the flexible section 101 is joined to a middlearea of a second side surface 105 of an anchor 106. The anchor 106 canbe a flexible or rigid or semi-rigid element and has at least onefastener surface 106 a engaged upon a first side surface 107 which isone half of a removably engageable fastener formed between the firstside surface 107 of the anchor 106 and at least one side surface, suchas on a first side 103 of the flexible section 101.

The first fastener surface 106 a positioned to preferably cover theentire area of the first side surface 107 of the anchor 106, includesone half of an engageable fastener which is designed to removably jointhe first fastener surface 106 a, with a mating second half or secondfastener surface 106 b, positioned upon at least one side such as thefirst side 103 of the flexible section 101. The removable fastener isformed when the first fastener surface 106 a and the second fastenersurface 106 b on the flexible section 101 of the shoelace come intocontact. It should be noted, that the strength of the contact betweenthe material of the flexible section 101 and the fastener needed forjoining the shoelace's material to the fastener depends on theproperties of the fastener surface and the material of the flexiblesection 101. For example, in some cases, a slight touch between thesecond fastener surface 106 a on a portion of the flexible section 101and the first fastener surface 106 a, may be enough to removably jointhe two together. In other cases, the portion of the flexible section101 bearing the second fastener surface 106 b may need to be pressedagainst the first fastener surface covering the first side surface 107of the anchor 106, in order to achieve removable attachment between thetwo.

The removably engageable fastener may be a releasable adhesive, however,more preferably it is formed of an engagement between a hook and a loopfastener, or in a particularly preferred mode of the device herein, itcan be formed of a combination hook and loop fastener material as notedbelow. In the latter case, if a combination hook and loop fastenermaterial is not employed, then the first side surface 107 of the anchorwould be covered by hook or loop fabric, and at least one side of theflexible section 101, would have positioned thereon the other one of thehook or loop fabric which is not engaged upon the first side surface 107of the anchor 106. Currently, placement of hook fabric as the firstfastening surface 106 a upon the first side surface 107 of the anchor106, and loop fabric for the second fastener surface 106 b upon a sideof the flexible section 101 is preferred for ease of manufacturing. Morepreferably, combination hook and loop fastener material such asOMNI-TAPE brand fasteners by the VELCRO company, is engaged on oneentire side surface between the first end 102 and second end 104 of theflexible section 101, so as to form a first removable engagement when incontact with the first fastening surface 106 a covering the anchor 106,and a second removable engagement of facing portions of the combinationhook and loop fabric within the gap 111 between the opposing apertures201 formed in the surface of the shoe, or in opposing eyelets 202situated across the gap 111.

The anchor 106 has a length and a width defining an area of the anchor106 which is sized to have at least one dimension of the length or widthlarger than the apertures 201 formed in the shoe or eyelets 202 of theshoe through which the shoelace 100 is meant to communicate for use.Currently forming at least one dimension of the length or width of theanchor 106 having a distance between 1.5 mm and 8 mm is preferred as theapertures 201 conventionally vary between 1 mm and 7.5 mm in many shoes.A favored distance of the one dimension of the anchor 106, for mostshoes, would be at least 3.5 mm as the diameter of most apertures 201formed in shoe eyelets 202 or the surface of the shoe, have been foundin experimentation to be smaller than that dimension. In this manner,the anchor 106 is rendered large enough so that it does not fit withinthe aperture 201 of a shoe or eyelet 202 of the shoe thereby preventingthe first end 102 of the shoelace 100 engaged thereto, fromcommunicating through the aperture 201 once the second end 104 of theshoelace has been threaded therethrough. In a variant, the anchor 106 isconfigured for wholly or partially covering the eyelet of the shoe. Apreferred shape of the anchor 106 as in FIGS. 7-10, is rectangular, withthe first side surface 107 being covered entirely by a first fasteningsurface 106 a, which has been found in experimentation to yield the mostsecure first engagement between the fastening surfaces of the anchor andflexible section 101. However, optionally, the shape of the first sidesurface 107 of the anchor 106 and first fastener surface 106 a coveringit may be oval or circular. The shape of the fastener surface and anchor106 is not limited to the mentioned shapes, and they may be manufacturedto have any desired shape such as may be the case where fashion tastesare involved.

Optionally, but preferred for ease of threading through the apertures ofthe shoe, the second end 104 of the flexible section 101 is joined to(e.g. surrounded by) a rigid or semi-rigid aglet 108 at the second end104 thereof. The aglet 108 imparts some rigidity to the second end 104of the flexible section 101, in order to ease the passage thereofthrough the apertures 201 formed in the shoe or engaged eyelets 202.Optionally, the aglet 108 compresses the second end 104 in order todecrease a cross sectional surface of the second end, further easing theshoelace's passage through the opposing apertures 201 to engagement inan as-used position across the gap 111.

The flexible section 101 may be made of any suitable material known inthe art, such as leather, cotton, jute, hemp, and/or synthetic fiber,such as nylon, for example. The flexible section 101 may include on thefirst side 103 or be in the form of the second fastening surface 106 b,such as loop material or combination hook and loop material, between theconnection to the central portion of the anchor 106 and the second end104. All these materials may function as loop-sections of ahook-and-loop fastener. The aglet may be made of adhesive tape, wax,resin, glue, thread, heat shrink or metal tubing. Instead of the aglet,the second end 104 of the shoelace may be simply knotted or melted. Theanchor 106 may be made of any rigid or semi-rigid material, such asplastic, metal, wood, cardboard, etc.

The length of the flexible section 101, and the size and geometry of theformed fastener and of the aglet (if present) are chosen according tothe shoe with which the shoelace 100 is meant to be used. Such willdepend on the spacing of the apertures 201 in the shoe or in the engagedeyelets 202, as well as the diameter of those apertures 201. An agletwhich compresses the second end 104 of the shoelace 100 such that itwill easily traverse through the diameter of the apertures 201 in theshoe or the eyelets 202 in the shoe is preferred to as to ease thecommunication of the second end 204 through both opposing apertures 201situated across the gap 11 to engage the device herein to the as-usedposition shown for example in FIGS. 3 b, 4 b, and 10.

FIGS. 3 a and 3 b are schematic drawings illustrating a first manner inwhich the device or shoelace 100 of the present invention may beinserted into a pair of apertures 201 formed within eyelets 202, andused for securing a shoe 200 to the user's foot. As shown in FIG. 3 a,the flexible section 101 is configured for traversing a pair ofapertures 201 communicating through a pair of eyelets 202 and 204located on respecting facings 203 and 205 of the shoe (e.g. on opposingsides of the gap 111 occupied by the tongue 212, if present). The secondend 104 of the flexible section 101 is threaded through both apertures201 of both eyelets 202 and 204. The anchor 106 is sized as noted aboveto be larger than the diameter of the apertures 201 and consequentlycannot traverse the aperture 201 of the first eyelet 202, and thusanchors the shoelace 100 to the first facing 203 defining one side ofthe gap 111.

As shown in FIG. 3 b, after exiting a second aperture 201 in a secondeyelet 204, the second end 104 of the flexible section 101 may be pulledtoward the anchor 106, to pull the first and second facings 203 and 205which define the gap 111, toward each other and thus tighten the shoearound the user's foot. Once the user is satisfied with the tightness ofthe shoe, the flexible section 101 is rotated about second aperture 111communicating through the second eyelet 204, so that the second end 104portion of the shoelace is moved toward the first fastener surface 106 acovering the first side surface 107 of the anchor 106. In this manner, aportion of the flexible section 101 bearing the second fastening surface106 b, is brought into contact with and joined to the first fastenersurface 106 a, and the tightness of the shoe around the user's foot ismaintained.

It should be noted that though the example of FIGS. 3 a and 3 b, theapertures 201 and eyelets are aligned with each other (set at the sameheight along the respective facings), this is not a necessity. In fact,the flexible section 101 may be communicated across the gap 111 and setdiagonally to traverse two apertures 201 that are not aligned with eachother.

FIGS. 4 a and 4 b are schematic drawings illustrating a second manner inwhich the shoelace 100 of the present invention may be inserted into apair of apertures 201 in the shoe or in eyelets, and used for securing ashoe 200 to the user's foot.

As shown in FIG. 4 a, two shoelaces of the present invention arepresent. The first shoelace 100 includes the first flexible section 101having a first end 102 and a second side 104, and the first anchor 106joined to a first end 102 of the first flexible section 101. The firstanchor 106 has a first fastener surface 106 a covering the entire areaof the first side surface 107. The second shoelace 300 includes a secondflexible section 301 having a first end and a second end 304, and asecond anchor 306 joined to a first end of the second flexible section301. The second anchor 306 has a second fastener surface 306 apositioned on a first side surface. The first flexible section 101traverses the aperture 201 in the first eyelet 202 on the first facing203 and the second aperture 201 in the second eyelet 204 on the secondfacing 205, and is anchored to the first facing 203 via the first anchor106. The second flexible section 301 traverses an aperture 201 in athird eyelet 206 on the first facing 203 and an aperture 201 formed in afourth eyelet 204 on the second facing 205, and is anchored to the firstfacing 203 via the second anchor 306.

As shown in FIG. 4 b, the second end 104 of the first flexible section101 is pulled toward the second anchor 306, thus joining a secondfastening surface 106 b on all or the shown portion of the firstflexible section 101 to the second anchor 306 of the second shoelace300. Similarly, the second end 304 of the second flexible section 301with the second fastening surface 106 b thereon is pulled toward thefirst anchor 106, thus joining a portion of the second flexible section301 to the first fastening surface 106 a covering the first side surface107 of the first anchor 106 of the first shoelace 100. The facings 203and 205 are still brought closer to each other and the gap 111 slightlynarrowed in portions thereby securing the shoe 200 around the user'sfoot.

FIG. 5 is a perspective drawing illustrating an example of a dress shoefitted with a plurality of the shoelaces engaged in respective as-usedpositions through opposing apertures of the present invention.

A plurality of shoelaces 100 of the present invention are used forsecuring the dress shoe 200 to the user's foot. The flexible section ofeach shoelace traverses a respective pair of apertures 201 formed in thedepicted eyelets, where the first eyelet of the pair is located on thefirst facing 203 while the second eyelet of the pair is located on thesecond facing 205. Optionally, the aperture or apertures in the eyeletsof the pair are set at the same height along the respective facings.

In a variant, the shoelaces 100 include respective aglets, each agletlocated at the second end of the respective shoelace's flexible section.Optionally, all the shoelaces 100 are anchored at the first facing 203,so that a second end of flexible section is joined to the sameshoelace's fastener surface located on the first facing 203.

FIG. 6 is a flowchart 400 illustrating a method for securing a shoe to afoot, using the shoelace of the present invention.

At 402, a shoelace of the present invention as described above isprovided. At 404, the second end of the shoelace's flexible section isthreaded through a first aperture of a shoe located on the shoe's firstfacing. At 406, the second end of the shoelace's flexible section isthreaded through a second aperture of the shoe located on the shoe'ssecond facing.

At 408, the second end of the shoelace's flexible section is pulled sothat the anchor contacts the first facing of the shoe, thus anchoringthe shoelace to the first facing. At 410, the second end of theshoelace's flexible section is pulled over the first facing toward theanchor, in order to pull the first and second facings toward each otherand tighten around the user's foot. At 412, while the shoelace'sflexible section is still taut, a portion of the shoelace's flexiblesection is joined to the fastening surface of the anchor. In this mannerthe tightness of the shoelace's flexible section is maintained, andtherefore, the shoe is secured to the user's foot.

Shown in FIGS. 7-10 is a particularly preferred mode of the shoelace 100device herein, yielding first and second engagements of the flexibleportion 101 when engaged to the as-used position shown in FIG. 10. Asshown in FIG. 10, a first engagement 115 of the flexible section 101 isachieved by engagement of the first fastening surface 106 a covering thefirst side surface 107 on the anchor 106, to a second fastening surface106 b positioned on a first side 103 of the flexible section 101. Asecond engagement 117 is achieved by engagement of a first portion 101 aof the flexible section 101 and a second portion 101 b of the flexiblesection 101 in the area of the gap 111. This second engagement 117 isachieved by the placement of combination hook and loop fabric 121 as thesecond fastening surface 106 b, across the length of a first side 103 ofthe flexible section 101 as the combination hook and loop fabric willengage itself, as well as any of hook, loop or combination hook and loopfabric placed on the first side surface 107 of the anchor 106. This modeof the device herein, by providing both a first and second removableengagement to secure the flexible section 101 in the as-used position,yields a particularly secure engagement found to be much more unlikelyto disconnect when the user is running or exercising or the shoes arebumped or otherwise contacted, than a single engagement.

FIG. 8 shows a side view of the anchor of the shoelace 100 device ofFIG. 7, showing the combination hook and loop fabric 121 in an enlargedsection, which may be employed as the second fastening surface 106 bpositioned on the first side 103 of the flexible section 101 of thedevice herein shown. Also shown are the preferred engagement of thefirst end 102 of the flexible section 101 to a central area of thesecond side surface 105 of the anchor 106 which as noted has been shownto center the anchor 106 with the aperture 201 and in the case where theanchor 106 is rectangular as shown in FIGS. 7-10, positioning theengagement of the first end 102 to the anchor 106 in the central areahas also been found to cause the anchor 106 to align axially with theflexible section 101 communicating across the gap 111 be it straightacross or diagonally as in FIG. 4 b.

FIG. 9 depicts an overhead view of the second side surface 105 of theanchor and second side 113 of the flexible section 101 and theengagement of the first end 102 of the flexible section 101 at a centralposition on the second side surface 105 of the anchor 106. Such anattachment as noted provides means to center the anchor 106 over anaperture 201 in a shoe when the flexible portion is communicatedtherethrough, and in the case of a rectangular shaped anchor 106 havinga long axis aligned with the axis of the flexible section 101, thiscentral connection has shown to better align the rectangular anchor 106with the axis of the flexible section 101 when stretched and secured inthe as-used position.

As noted above, FIG. 10 shows the device of FIGS. 7-9 engaged on a shoewhere the second end 104 of the flexible section 101 has been threadedthrough opposing apertures 201, and where a first portion 101 a of theflexible section 101 is engaged across the gap 111 with a second portion101 b of the flexible section 101. As noted when combination hook andloop fabric 121 is engaged to the first side 103 of the flexible section101, this second engagement 117 may be achieved along with the abovenoted first engagement 115 to provide a much more secure engagement ofthe shoelace 100 device to the shoe, than just a single engagement atthe first fastening surface 106 a covering the first side surface 107 ofthe anchor 106.

While various embodiments of the present invention have been describedabove, it should be understood that they have been presented by way ofexample only, and not of limitation. Likewise, the various diagrams maydepict an example architectural or other configuration for theinvention, which is done to aid in understanding the features andfunctionality that can be included in the invention. The invention isnot restricted to the illustrated example architectures orconfigurations, but the desired features can be implemented using avariety of alternative architectures and configurations. Indeed, it willbe apparent to one of skill in the art how alternative functional,logical or physical partitioning and configurations can be implementedto implement the desired features of the present invention. Also, amultitude of different constituent module names other than thosedepicted herein can be applied to the various partitions. Additionally,with regard to flow diagrams, operational descriptions and methodclaims, the order in which the steps are presented herein shall notmandate that various embodiments be implemented to perform the recitedfunctionality in the same order unless the context dictates otherwise.

Although the invention is described above in terms of various exemplaryembodiments and implementations, it should be understood that thevarious features, aspects and functionality described in one or more ofthe individual embodiments are not limited in their applicability to theparticular embodiment with which they are described, but instead can beapplied, alone or in various combinations, to one or more of the otherembodiments of the invention, whether or not such embodiments aredescribed and whether or not such features are presented as being a partof a described embodiment. Thus, the breadth and scope of the presentinvention should not be limited by any of the above-described exemplaryembodiments.

Terms and phrases used in this document, and variations thereof, unlessotherwise expressly stated, should be construed as open ended as opposedto limiting. As examples of the foregoing: the term “including” shouldbe read as meaning “including, without limitation” or the like; the term“example” is used to provide exemplary instances of the item indiscussion, not an exhaustive or limiting list thereof; the terms “a” or“an” should be read as meaning “at least one,” “one or more” or thelike; and adjectives such as “conventional,” “traditional,” “normal,”“standard,” “known” and terms of similar meaning should not be construedas limiting the item described to a given time period or to an itemavailable as of a given time, but instead should be read to encompassconventional, traditional, normal, or standard technologies that may beavailable or known now or at any time in the future. Likewise, wherethis document refers to technologies that would be apparent or known toone of ordinary skill in the art, such technologies encompass thoseapparent or known to the skilled artisan now or at any time in thefuture.

A group of items linked with the conjunction “and” should not be read asrequiring that each and every one of those items be present in thegrouping, but rather should be read as “and/or” unless expressly statedotherwise. Similarly, a group of items linked with the conjunction “or”should not be read as requiring mutual exclusivity among that group, butrather should also be read as “and/or” unless expressly statedotherwise. Furthermore, although items, elements or components of theinvention may be described or claimed in the singular, the plural iscontemplated to be within the scope thereof unless limitation to thesingular is explicitly stated.

The presence of broadening words and phrases such as “one or more,” “atleast,” “but not limited to” or other like phrases in some instancesshall not be read to mean that the narrower case is intended or requiredin instances where such broadening phrases may be absent. The use of theterm “module” does not imply that the components or functionalitydescribed or claimed as part of the module are all configured in acommon package. Indeed, any or all of the various components of amodule, whether control logic or other components, can be combined in asingle package or separately maintained and can further be distributedacross multiple locations.

It is appreciated that certain features of the invention, which are, forclarity, described in the context of separate embodiments, may also beprovided in combination in a single embodiment. Conversely, variousfeatures of the invention, which are, for brevity, described in thecontext of a single embodiment, may also be provided separately or inany suitable subcombination or as suitable in any other describedembodiment of the invention. Certain features described in the contextof various embodiments are not to be considered essential features ofthose embodiments, unless the embodiment is inoperative without thoseelements.

Additionally, the various embodiments set forth herein are described interms of exemplary block diagrams, flow charts and other illustrations.As will become apparent to one of ordinary skill in the art afterreading this document, the illustrated embodiments and their variousalternatives can be implemented without confinement to the illustratedexamples. For example, block diagrams and their accompanying descriptionshould not be construed as mandating a particular architecture orconfiguration.

What is claimed is:
 1. A shoelace configured for an as-used positioningsecured between two opposing apertures positioned on opposite sides of agap in a shoe, comprising: an elongated flexible section having a firstend and having a second end, the flexible section being configured fortraversing through a pair of opposing apertures formed in shoe; ananchor in an attachment at the first end of said flexible section, theanchor having a length and a width defining an area of a first sidesurface, said anchor having a second side surface on an opposite side ofsaid anchor from said first side surface; a distance across one of saidlength or said width of said anchor, being larger than a distance acrossa diameter of said apertures wherein said anchor forms a stop forpreventing passage of said first end connected thereto, through saidapertures; and a first fastening surface positioned on the first sidesurface of the anchor, said first fastening surface configured toremovably engage with a second fastening surface located on a first sidesurface of said flexible section in a first engagement, upon a contactof said second fastening surface against said first fastening surface,whereby said shoelace positioned to an as-used position, with saidsecond end of said flexible section communicated through both of saidapertures, and positioned with said second fastening surface engagedwith said first fastening surface, secures the shoe to a foot of a user.2. The shoelace of claim 1, wherein said engagement of said anchor tosaid first end of said flexible section, is an engagement located at acentral position on said second side of said anchor.
 3. The shoelace ofclaim 1, wherein said first fastening surface located upon said firstside surface of said anchor is formed of one of hook fabric or loopfabric; and the second said second fastening surface is formed of theother of said hook fabric or said loop fabric than that forming saidfirst fastening surface.
 4. The shoelace of claim 2, wherein said firstfastening surface located upon said first side surface of said anchor isformed of one of hook fabric or loop fabric; and the second said secondfastening surface is formed of the other of said hook fabric or saidloop fabric than that forming said first fastening surface.
 5. Theshoelace of claim 3, wherein loop fabric covers a first side surface ofsaid flexible section in-between said first end and said second endthereof.
 6. The shoelace of claim 4, wherein loop fabric covers a firstside surface of said flexible section in-between said first end and saidsecond end thereof.
 7. The shoelace of claim 1, wherein said firstfastening surface located upon said first side surface of said anchor isformed of one of hook fabric or loop fabric; the second said secondfastening surface is formed of combination hook and loop fabric; andsaid second fastening surface forming a second engagement situatedwithin a gap between said apertures, said second engagement being aremovable engagement between said combination hook and loop fabric on afirst portion of said flexible section, and said combination hook andloop fabric located on a second portion of said flexible section.
 8. Theshoelace of claim 2, wherein said first fastening surface located uponsaid first side surface of said anchor is formed of one of hook fabricor loop fabric; the second said second fastening surface is formed ofcombination hook and loop fabric; and said second fastening surfaceforming a second engagement situated within a gap between saidapertures, said second engagement being a removable engagement betweensaid combination hook and loop fabric on a first portion of saidflexible section and said combination hook and loop fabric located on asecond portion of said flexible section.
 9. The shoelace of claim 1,wherein said distance is between 1.5 and 8 mm.
 10. The shoelace of claim1, wherein said distance is at least 3.6 mm.
 11. A method for fasteninga shoe employing the shoelace of claim 7, the method comprising: i.providing said shoelace; ii. threading the flexible section through thefirst aperture located on a first facing of the shoe and the secondaperture being located across a gap and on a second facing of the shoe;iii. pulling the flexible section to bring the anchor in contact withthe first facing of the shoe; iv. rotating the flexible section over thesecond aperture, toward the anchor; and v. joining a portion of theflexible section with the anchor in a first engagement; and vi. joiningsaid first portion of said flexible section to said second portion ofsaid flexible section to form said second engagement.